Assessment of AM biotechnology in improving agricultural productivity of nutrient-deficient soil in the tropics

Abstract

Growth, nutrient content and nodulation response of cowpea plants (Vigna unguiculata L. Walp) inoculated with a Arbuscular Mycorrhiza (AM) fungus (Glomus etunicatum) and Bradyrhizobium (BR) strain IRC 25B peat-based were assessed on an alfisol in a two-cropping cycle experiment conducted in the greenhouse. A total of 5 kg sieved unsterilized topsoil plastic pots was amended with compost consisting of 2.4% N, 1.7% P, 2.7% Ca, 0.4% Mg and 0.7% Fe. Analysis from this first cropping cycle showed that all cowpea plants were infected with mycorrhiza in both AM inoculated and uninoculated treatments. However, all the AM inoculated plants had higher infections than the uninoculated cowpea plants. Nevertheless, nodule number and nodule weight of cowpea plants generally increased in response to compost application when used alone, or when combined with BR or AM; except for nodule weight of BR + Compost treatment. At 13 weeks after planting, the plants were harvested for a second cropping cycle experimental analysis. Results showed higher mycorrhizal infections in all the treatments inoculated with AM. However, infection was highest in cowpea plants treated with AM + BR + Compost, followed by those treated with AM + BR. This shows an increase in the number of AM propagules during the period of cropping. All other parameters measured were found generally lower in their mean values compared to the first cropping cycle. It was observed in this study that compost applications with AM inoculation could substitute for inorganic fertilizer. Thus, tropical countries should direct their efforts towards making the best use of AM to improve conditions for the peasant farmers that account for over 70% agricultural productivity in the region.